Abstract
Simple SummaryThe requirement of valuable protein sources for a continuously growing human population and the simultaneous decrease in available areas suitable for agricultural production present a serious future global challenge. This has prompted many researchers to take action to look for alternative sources of protein—including the use of insects. Among insects, black soldier fly (Hermetia illucens L., HI) larvae are a promising alternative for future sustainable nutrient sources as both feed and food. This is a very promising species to be used in poultry nutrition. Unfortunately, the results of the present study reveal that the replacement of soybean meal with high levels (50%, 75% or 100%) of full-fat HI meal in the diets of broiler chickens throughout the rearing period is unfavorable. The results of this study show that broiler chickens fed diets with high inclusion levels of HI larvae meal consumed less feed than birds fed standard diets, which was reflected in lower average daily gain. The replacement of soybean meal protein with HI larvae meal in broiler chicken diets at above 50% significantly deteriorates carcass quality and the sensory quality of meat.The aim of this study was to compare selected growth performance parameters and slaughter characteristics in broiler chickens fed diets with a different content of full-fat Hermetia illucens L. (HI) larvae meal. The experiment was performed on 384 male broiler chickens (Ross 308) reared to 42 d of age and assigned to four dietary treatments (HI0—control diet and diets where soybean meal protein (SBM) was replaced with HI protein in 50%, 75% and 100%, respectively). The final body weights of chickens were as follows: 3010.0 g (HI0), 2650.0 g (HI50), 2590.0 g (HI75) and 2375.0 g (H100, p < 0.05). The carcasses of chickens from the experimental groups contained less meat and more abdominal fat. The feed conversion ratio for the entire experimental period was similar in groups HI0, HI50 and HI75 and more desirable than in group HI100 (p < 0.05). The meat of broiler chickens from groups HI75 and HI100 was characterized by significantly (p < 0.05) lower juiciness and taste intensity than the meat of birds from groups HI0 and HI50. The replacement of SBM protein with full-fat HI larvae meal in broiler diets exceeding 50% significantly compromised the growth performance of birds and the carcass and meat quality.
Highlights
Poultry meat is popular and widely available, and a steady increase in its production and consumption has been observed around the world [1]
At 14 d of age, the highest live body weight (LBW) (446.57 g) was noted in the control group (HI0), and it was significantly higher than in experimental groups (404.41 g, 389.11 g and 337.53 g in groups HI50, HI75 and HI100, respectively p < 0.05); no significant (p > 0.05) differences in LBW were found between groups HI50 and HI75
At 42 d of age, LBW values did not differ (p > 0.05) between groups HI50 and HI75, whereas the highest LBW was noted in group HI0 (3046.00 g, p < 0.05), to d 14 and 35
Summary
Poultry meat is popular and widely available, and a steady increase in its production and consumption has been observed around the world [1]. Human population growth, accompanied by global climate change and a decline in the area suitable for food crops, has promoted a search for alternative, effective protein sources for livestock diets. Attention has been paid to edible insects, which are a natural source of protein and other nutrients for omnivorous species of poultry in the wild [2]. Black soldier fly (Hermetia illucens L., HI) has been widely used as an ingredient of animal diets, since its larvae are a rich source of fat (7–39% dry matter—DM) and protein (37–63% DM) with a better amino acid profile than soybean meal—SBM [4]. The use of HI as a dietary protein source for animals has been investigated in rabbits [5], fish [6], pigs [7]
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